JP5587226B2 - Registration device, registration method, and registration program - Google Patents

Description

  Embodiments described herein relate generally to a registration apparatus, a registration method, and a registration program.

  2. Description of the Related Art Conventionally, photographing apparatuses such as digital cameras and video cameras that generate still images and moving images by performing photographing processing are known. Such a photographing device is often used by a user who goes out on a trip or the like, and can be used as a still image or a moving image by being used on the go.

Netcam Systems Co., Ltd., “Simple monitoring via broadband internet LAN”, [online], [February 24, 2011 search], Internet <URL: http://www.ncam.net/index.html> Weather News, Inc., “Weather Camera”, [online], [Search February 24, 2011], Internet <http://weathernews.jp/livecam/> Mitsubishi Electric Corporation, “Helicopter Video Application Damage Interpretation System”, [online], [Search February 24, 2011], Internet <http://www.mitsubishielectric.co.jp/land/watch/index.html >

  However, when a conventional photographing apparatus is used, when the user himself / herself becomes a subject, the user requests photographing from a travel companion or another person who met at the destination. For this reason, there are cases in which it is difficult for a user to leave a still image or a moving image including the user himself / herself.

  The registration device according to the embodiment is a registration device that is communicably connected to a service server that searches for image data, and includes a storage unit, a reception unit, an extraction unit, and a registration unit. The storage unit stores a map, position information of each position indicated on the map, and map image data generated by photographing the periphery at the position indicated on the map in association with each other. The reception unit receives input of image data generated by the imaging device installed inside or outside the building or the imaging device carried by someone other than the person who requests the search. The extraction unit searches the overlapping range of the image data on the map image data by comparing the image data received by the receiving unit and the map image data stored in the storage unit by image recognition, Position information indicating an area on the map included in the searched overlapping range is extracted from the position information stored in the storage unit. The registration unit searches the image data generated by being photographed by the photographing device using the photographing position indicating the position of the photographing target, and the position information extracted by the extracting unit with respect to the service server Is transmitted to the service server in association with the image data generated by the photographing apparatus as the photographing position.

  According to the registration device, the registration method, and the registration program according to the embodiment, there is an effect that a large number of image data including the user can be provided.

FIG. 1 is a diagram illustrating a configuration example of an image collection system according to the first embodiment. FIG. 2 is a diagram illustrating an example of a user terminal according to the first embodiment. FIG. 3 is a diagram illustrating a network configuration example of the image collection system according to the first embodiment. FIG. 4 is a diagram for explaining pre-registration of a shooting position by the image collection system in the first embodiment. FIG. 5 is a diagram for explaining a shooting position in the first embodiment. FIG. 6 is a diagram illustrating processing for registering a shooting position by the image collection system according to the first embodiment. FIG. 7 is a diagram illustrating behavior information transmission / reception processing by the image collection system according to the first embodiment. FIG. 8 is a diagram illustrating image information transmission / reception processing by the image collection system according to the first embodiment. FIG. 9 is a diagram illustrating image data transmission / reception processing by the image collection system according to the first embodiment. FIG. 10 is a diagram illustrating a configuration example of each device in the first embodiment. FIG. 11 is a diagram illustrating an example of the user information storage unit. FIG. 12 is a diagram illustrating an example of the image storage unit. FIG. 13 is a diagram illustrating an example of the image storage unit. FIG. 14 is a diagram illustrating an example of the user information storage unit. FIG. 15 is a diagram illustrating an example of the photographing information storage unit. FIG. 16 is a diagram illustrating a computer that executes a registration program.

  Embodiments of a registration apparatus, a registration method, and a registration program according to the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited by this Example.

[Configuration Example of Image Collection System in Embodiment 1]
First, the image collection system according to the first embodiment will be described. The image collection system 1 according to the first embodiment collects image data photographed by a photographing device such as a surveillance camera. Then, when the image collection system 1 receives an image data acquisition request from a user, the image collection system 1 performs an authentication process using the user's action history, and then the image data that may be reflected in the user. To users.

  Such processing by the image collection system 1 will be briefly described with reference to FIG. FIG. 1 is a diagram illustrating a configuration example of an image collection system according to the first embodiment. Hereinafter, a case where the image collection system 1 collects image data that is a still image will be described as an example. However, the image collection system 1 may collect image data that is a moving image.

  As illustrated in FIG. 1, the image collection system 1 includes user terminals 110, 120, 130, and 140, imaging devices 210, 220, 230, and 240, an operation terminal 310, an image storage 410, and a service server 510. And an image collection device 610.

  The user terminals 110, 120, 130, and 140 are mobile phones or the like used by users, and have a function of acquiring the location of the own terminal. These user terminals 110, 120, 130, and 140 periodically transmit behavior information including the location of the terminal and the location date and time to the service server 510. Here, the position information 210a, 220a, 230a, and 240a illustrated in FIG. 1 are the position information of the user terminals 110, 120, 130, and 140, respectively.

  The photographing devices 210, 220, 230, and 240 are monitoring cameras or the like installed inside and outside the building, and generate image data by performing photographing processing. The imaging device 210 and the imaging device 240 transmit image data and the like to the image storage. Here, the photographing apparatus 210 is connected to one image storage 410, and the photographing apparatus 240 is connected to one image storage (not shown). The photographing apparatus 210 transmits image data and the like to the image storage 410, and the photographing apparatus 240 transmits image data and the like to an image storage (not shown). Thereby, each image storage accumulate | stores the image data produced | generated by the imaging device. On the other hand, the image capturing device 220 and the image capturing device 230 store image data generated by performing image capturing processing in the image capturing device.

  In addition, the imaging devices 210 and 240 transmit imaging information regarding image data to the service server 510. Note that the shooting information indicates, for example, information including an image ID for identifying image data, a shooting date and time that is a date and time when shooting is performed by the shooting device, and the like.

  The operation terminal 310 specifies a shooting position that is a position of a shooting target shot by the shooting device 210 and the like, and pre-registers the specified shooting position in the service server 510. The operation terminal 310 pre-registers in the service server 510 a shooting position that is to be shot by the shooting device 210 when the shooting device 210 is installed. Here, the photographing positions 210b, 220b, 230b, and 240b shown in FIG. 1 are photographing positions of the photographing devices 210, 220, 230, and 240, respectively.

  The service server 510 collects behavior history of each user by periodically receiving behavior information from the user terminal 110 or the like. Further, the service server 510 collects shooting information related to image data generated by each shooting device by receiving shooting information from the shooting device 210 and the like. Accordingly, the service server 510 can collect shooting information of image data held by each image storage.

  The image collection device 610 is a PC (Personal Computer) used by a user and searches for image data from the service server 510 and the image storage 410. Specifically, the image collection device 610 transmits an image ID acquisition request to the service server 510 together with position information and date / time information designated by the user in accordance with an instruction from the user such as the user terminal 110. Then, the service server 510 first performs an authentication process using the user's action history, and then there is a possibility that the user is shown based on the action history, a pre-registered shooting position, and the like. The image ID indicating the image data is searched, and the obtained image ID is transmitted to the image collection device 610. Then, the image collection device 610 acquires image data from the image storage 410 using the image ID acquired from the service server 510. Thereby, a user such as the user terminal 110 obtains image data that may be reflected in the user by operating the image collection device 610, for example, when the user goes home from whereabouts. Can do.

  In the above description, an example in which the image collection device 610 acquires image data from the image storage 410 has been described. However, the imaging devices 220 and 230 illustrated in FIG. 1 do not pass through the image storage 410 but the user terminal 120 or 130. Provide image data.

  Specifically, the imaging device 220 receives an image data acquisition request from the user terminal 120 and provides the image data to the user terminal 120 in response to the image data acquisition request. Thereby, the user of the user terminal 120 can immediately acquire the image data photographed by the photographing device 220.

  In addition, in response to the image data acquisition request from the user terminal 130, the imaging device 230 performs the imaging process after recognizing that the user of the user terminal 130 performs the imaging process, for example, by blinking a light. Do. Then, the imaging device 230 provides the image data to the user terminal 130. Thereby, the user of the user terminal 130 can immediately acquire the image data photographed in the posture desired by the user himself / herself.

  Further, when the user is on a transportation facility such as the train 10, the image collection system 1 can also provide image data of the transportation facility to the user. Specifically, the imaging device 240 is a monitoring camera or the like that images the train 10 or a track through which the train 10 passes, and the train 10 receives vehicle information including the location and date and time of the train 10 as a service server. A vehicle apparatus that periodically transmits to 510 is mounted. Then, the image collection device 610 is operated by the user of the user terminal 140 to transmit an image ID acquisition request to the service server 510. Then, the service server 510 transmits an image ID indicating image data on which the train 10 boarded by the user may be reflected to the image collecting device 610 by performing an authentication process using the vehicle information. Then, the image collection device 610 acquires image data from the image storage connected to the imaging device 240. Thereby, when the user of the user terminal 140 returns home from a place where he / she goes out, for example, the user operates the image collection device 610 so that the image data on the train 10 on which the user himself / herself is taken may be reflected. Can be obtained.

  Among such image collection systems 1, in the first embodiment, the processing by the user terminal 110, the imaging device 210, the operation terminal 310, the image storage 410, the service server 510, and the image collection device 610 illustrated in FIG. explain. Here, in the first embodiment, it is assumed that there are a plurality of user terminals 110. This will be specifically described with reference to FIG. FIG. 2 is a diagram illustrating an example of the user terminal 110 according to the first embodiment. The user terminals 110-1 to 110-m illustrated in FIG. 2 correspond to the user terminal 110 illustrated in FIG. Each of the user terminals 110-1 to 110-m is communicably connected to the service server 510, and periodically transmits behavior information to the service server 510.

  In the first embodiment, it is assumed that a plurality of photographing apparatuses 210 are installed. Assume that one image storage is installed for one photographing apparatus. This will be specifically described with reference to FIG. FIG. 3 is a diagram illustrating a network configuration example of the image collection system 1 according to the first embodiment.

  The imaging devices 210-1 to 210-n shown in FIG. 3 correspond to the imaging device 210 shown in FIG. 1, and the image storages 410-1 to 410-n shown in FIG. 3 store the images shown in FIG. It corresponds to the storage 410. The photographing devices 210-1 to 210-n are communicably connected to the service server 510 via the information communication network 20. The photographing apparatus 210-1 is communicably connected to the image storage 410-1, and transmits image data and the like to the image storage 410-1. Similarly, the imaging device 210-2 is communicably connected to the image storage 410-2, and transmits image data and the like to the image storage 410-2.

  In the first embodiment, an example in which one image storage is installed for one photographing apparatus will be described, but the embodiment is not limited thereto. For example, one image storage may be installed for a plurality of imaging devices. Further, for example, a plurality of image storages may be installed for one photographing apparatus.

  Below, when it is not necessary to distinguish the user terminals 110-1 to 110-m, these may be collectively referred to as “user terminals 110”. Further, when it is not necessary to distinguish between the imaging devices 210-1 to 210-n, they are collectively referred to as “imaging device 210”, and it is not necessary to distinguish between the image storages 410-1 to 410-n. In some cases, these may be collectively referred to as “image storage 410”.

[Pre-registration of shooting position]
Next, the pre-registration of the shooting position will be described with reference to FIGS. FIG. 4 is a diagram for explaining pre-registration of shooting positions by the image collection system 1 in the first embodiment, and FIG. 5 is a diagram for explaining shooting positions in the first embodiment.

  As described above, in the image collection system 1 according to the first embodiment, the operation terminal 310 pre-registers the shooting position of the shooting device 210 in the service server 510. The service server 510 uses the pre-registered shooting position to search for an image ID indicating image data that may be captured by the user.

  Here, the photographing position is a position of a photographing target photographed by the photographing device 210 and is not a position where the photographing device 210 is installed. In the first embodiment, the shooting position is not a certain point but a fixed area. The operation terminal 310 according to the first embodiment specifies a shooting position as a certain area using the image data shot by the shooting device 210 and pre-registers position information indicating the specified shooting position in the service server 510. For example, the operation terminal 310 performs this pre-registration when the photographing apparatus 210 is installed.

  Hereinafter, pre-registration of the photographing position performed when the photographing apparatus 210 is installed will be described together with an example of work performed by the worker. First, the operator operates the operation terminal 310 brought to the installation location of the image capturing apparatus 210, and the image capturing apparatus ID of the image capturing apparatus 210 and the image stored in the image storage 410 corresponding to the image capturing apparatus 210 are displayed on the operation terminal 310. Enter the storage ID. The imaging device ID is information for identifying the imaging device 210, and the image storage ID is information for identifying the image storage 410. When the operation terminal 310 receives the input of the imaging device ID and the image storage ID, the operation terminal 310 associates these ID information and stores them in the storage unit.

  In addition, the worker performs an operation on the operation terminal 310 to acquire the position information of the position where the photographing apparatus 210 is installed. Then, the operation terminal 310 measures position information using, for example, a GPS (Global Positioning System) function built in the terminal itself. The GPS function of the operation terminal 310 receives a signal transmitted from a GPS satellite, and detects longitude and latitude as position information of a position where the photographing apparatus 210 is installed. Note that the position information measured here is only the position information of the position where the photographing apparatus 210 is installed, not the position information of the position of the photographing target.

  The worker installs the photographing device 210 at a predetermined position inside and outside the building and manually adjusts the direction of the lens. When the operator inputs a shooting instruction to the shooting device 210, the shooting device 210 performs shooting and generates image data. In this image data, a subject to be photographed by the photographing device 210 is photographed. Subsequently, the operator inputs image data captured by the imaging device 210 to the operation terminal 310, and the operation terminal 310 receives input of image data.

  Here, the operation terminal 310 in the first embodiment stores map information. The map information is obtained by associating a map, position information of each position indicated on the map, and map image data generated by photographing the periphery at the position indicated on the map. , Google (R) map street view, and the like. The operation terminal 310 stores such map information by being input in advance by an operator, for example.

  Then, as shown in FIG. 4, the operation terminal 310 compares the image data 30 photographed by the photographing device 210 with the map image data 40 using the existing image recognition technology, and the image data on the map image data 40 is displayed. Search for 30 overlapping ranges. That is, generally, the map image data 40 includes an enormous amount of map image data 40 taken at every position on the earth. Therefore, the operation terminal 310 searches for a range that matches the image data 30 from the enormous map image data 40 by pattern matching or the like.

  However, the operation terminal 310 in the first embodiment uses the position information of the position where the imaging device 210 is installed in order to narrow down the comparison range of the map image data 40 used for comparison before searching for the overlapping range. That is, normally, since the position where the photographing apparatus 210 is installed and the position of the photographing object photographed by the photographing apparatus 210 are considered to be close, the operation terminal 310 is located at the position where the photographing apparatus 210 is installed. The comparison range of the map image data 40 is narrowed down using the position information, that is, the position information measured using the GPS function. For example, the operation terminal 310 narrows down a range within a radius of about 100 m, for example, as a comparison range, with a fixed range around the position indicated by the position information measured using the GPS function.

  Then, when the operation terminal 310 searches for the overlapping range of the image data 30 on the map image data 40 in the narrowed comparison range, the location information indicating the area on the map included in the searched overlapping range is displayed as the map information. Extract from

  As shown in FIG. 5, for example, the operation terminal 310 cuts out the map image data 50 that is the overlapping range with the image data 30 from the map image data 40, and in the cut out map image data 50, the landmark object The fountain 50a is specified as a thing. The landmark object is, for example, one registered in the map information in advance as a characteristic structure, or one recognized as a characteristic structure by image recognition.

  Then, the operation terminal 310 sets the horizontal width and the depth width that are the registration range of the photographing position around the fountain 50a. The operation terminal 310 uses, for example, preset values that are input in advance by an operator and stored in the storage unit of the operation terminal 310 as the horizontal width and the depth width. In addition, for example, the operation terminal 310 may use a value input on the spot by the operator when the operator inputs while viewing the map image data 50 displayed on the display unit of the operation terminal 310.

  Next, the operation terminal 310 determines a rectangular area surrounded by the set horizontal width and depth width as a registration range area to be registered as a shooting position. Then, the operation terminal 310 extracts the latitude and longitude information at each corner of the rectangular area from the map information. For example, since the map, the position information, and the map image data are associated with each other in the map information, the operation terminal 310 first extracts the latitude / longitude information of the landmark object from the position information using the corresponding relationship. Then, using the latitude / longitude information, the latitude / longitude information at each corner of the rectangular area is obtained, for example, by calculation. Thus, the operation terminal 310 extracts “latitude X1 longitude Y1”, “latitude X2 longitude Y2”, “latitude X3 longitude Y3”, and “latitude X4 longitude Y4” as shown in FIG.

  Here, for the sake of convenience of explanation, for example, “latitude X1 longitude Y1” or the like is described. However, for example, the values are “north latitude 35 degrees 39 minutes 29 seconds 1572” and “east longitude 139 degrees 44 minutes 28 seconds 8759”. However, this value is only an example, and the position information is not limited to that indicated by latitude and longitude. Furthermore, in the first embodiment, a rectangular area centering on a landmark object will be described as an example of the registration range area, but the embodiment is not limited thereto. The region of the registration range may be, for example, a circle region centered on a landmark object. In addition, it is not always essential that the registration range area is centered on the landmark object.

  Then, as shown in FIG. 4, the operation terminal 310 sends the position information extracted from the map information to the service server 510 via the information communication network 20 together with the imaging device ID and the image storage ID stored in the storage unit. Send. The operation terminal 310 may display a confirmation button on the display unit before transmitting the position information to the service server 510, and may transmit the position information after accepting the operator pressing the confirmation button.

  The embodiment is not limited to the example described above. For example, in Example 1, although the example which narrows down a comparison range using the positional information measured using the GPS function was demonstrated, embodiment is not restricted to this. For example, the worker may input the position information of the landmark object existing in the vicinity of the installation location of the imaging device 210 to the operation terminal 310. In this case, the operation terminal 310 uses the position information of the landmark object to narrow down a range within a radius of about 100 m as a comparison range, for example, around a position indicated by the position information.

  Further, the process performed based on the operation by the operator may be automatically performed, and conversely, the process performed automatically may be the process performed based on the operation by the worker. For example, measurement of position information using the GPS function may be automatically performed by the operation terminal 310. In this case, the operation terminal 310 may measure the position information by activating the GPS function built in the terminal itself when the input of image data is received, for example.

  Further, for example, the map information may be automatically stored by the operation terminal 310. In this case, the operation terminal 310 downloads the map information via the information communication network 20 such as the Internet when the input of the image data is received, for example, and uses the map information stored by downloading the map information. The overlapping range of the image data 30 on the image data 40 is searched. Further, the operation terminal 310 may download the map image data 40 after narrowing down the comparison range by performing download using the position information of the position where the photographing apparatus 210 is installed.

[Flow of processing between devices]
Next, the flow of processing between the various apparatuses shown in FIG. 1 will be described with reference to FIGS. First, a shooting position registration process between the operation terminal 310 and the service server 510 will be described with reference to FIG. FIG. 6 is a diagram illustrating processing for registering a shooting position by the image collection system 1 according to the first embodiment.

  As shown in FIG. 6, the operation terminal 310 receives an input of the image data 30 photographed by the photographing device 210 (step S11). Next, the operation terminal 310 narrows down the comparison range using the position information measured using the GPS function (step S12). For example, the operation terminal 310 narrows down a range within a radius of about 100 m, for example, as a comparison range, with a fixed range around the position indicated by the position information measured using the GPS function.

  Subsequently, the operation terminal 310 compares the image data 30 photographed by the photographing device 210 with the map image data 40 using a known image recognition technique, and searches for an overlapping range of the image data 30 on the map image data 40. (Step S13). That is, the operation terminal 310 searches the map image data 40 for a range that matches the image data 30.

  Then, the operation terminal 310 cuts out the map image data 50 that is the overlapping range with the image data 30 from the map image data 40, and specifies the landmark object in the cut out map image data 50 (step S14). ). For example, the operation terminal 310 identifies the fountain 50a as a landmark object.

  Next, the operation terminal 310 sets a horizontal width and a depth width that are the registration range of the shooting position around the landmark object (step S15). Subsequently, the operation terminal 310 determines a rectangular area surrounded by the set horizontal width and depth width as a registration range area, and extracts position information indicating the determined area from the map information (step S16). For example, the operation terminal 310 extracts information on latitude and longitude at each corner of the rectangular area from the map information.

  Then, the operation terminal 310 transmits the position information extracted from the map information to the service server 510 via the information communication network 20 together with the imaging device ID and the image storage ID (step S17).

  On the other hand, when the service server 510 receives the position information, the imaging device ID, and the image storage ID (step S18), the service server 510 stores them in the imaging information storage unit 513 (step S19). In this way, the service server 510 pre-registers the shooting position of the shooting device 210 in the shooting information storage unit 513.

  Next, behavior information transmission / reception processing between the user terminal 110 and the service server 510 will be described with reference to FIG. FIG. 7 is a diagram illustrating behavior information transmission / reception processing by the image collection system 1 according to the first embodiment.

  As shown in FIG. 7, the user terminal 110 monitors whether or not it is time to transmit the behavior information to the service server 510 (step S21). In addition, the timing which transmits action information may be every time predetermined by the system, and may be every time arbitrarily determined by the user, for example, every 10 minutes or 1 hour. Every.

  Then, the user terminal 110 acquires the location of the own terminal when it is the transmission timing of the behavior information (step S22). Then, the user terminal 110 obtains behavior information including the acquired location, the location date and time at which the location is located, and a user ID for identifying the user who uses the user terminal 110. Store in the user information storage unit 113 (step S23). Then, the user terminal 110 transmits such behavior information to the service server 510 (step S24).

  When receiving the behavior information from the user terminal 110 (Step S25), the service server 510 stores the received behavior information in the user information storage unit 512 (Step S26). Each time the service server 510 receives behavior information from the user terminal 110, the service server 510 stores the behavior information in the user information storage unit 512. In this way, the service server 510 collects behavior information regarding the location and date / time where the user is located as a behavior history.

  Next, transmission / reception processing of various types of information regarding image data among the imaging device 210, the image storage 410, and the service server 510 will be described with reference to FIG. FIG. 8 is a diagram illustrating image information transmission / reception processing by the image collection system 1 according to the first embodiment.

  As shown in FIG. 8, the photographing apparatus 210 monitors whether or not it is a photographing timing (step S31). The photographing timing may be every time determined in advance by the system, or may be every time arbitrarily determined by an administrator who manages the photographing device 210, for example, every minute or Every 5 minutes.

  Then, the imaging device 210 generates image data by performing imaging processing when it is the imaging timing (step S32). Then, the photographing apparatus 210 pays out an image ID in association with the generated image data, and stores the image ID, the image data, and the photographing date / time in the image storage unit 213 (step S33). At this time, the imaging device 210 may store image data and the like in the image storage unit 213 together with the imaging device ID for identifying the imaging device 210 that is the device itself.

  When the image data is generated, the image capturing apparatus 210 transmits the image capturing apparatus ID, the image ID, the image data, and the image capturing date / time to the image storage 410 (step S34). At this time, the imaging device 210 transmits image data or the like to the image storage 410 that is communicably connected to the imaging device 210 that is the device itself. Note that the photographing apparatus 210 does not need to send the photographing date and time to the image storage 410, but in the first embodiment, the photographing apparatus 210 transmits the photographing date and time to the image storage 410.

  Further, when the image data is generated, the imaging device 210 transmits imaging information including the imaging device ID, the image ID, and the imaging date and time to the service server 510 (step S35). Here, as described with reference to FIG. 3, each of the plurality of imaging devices included in the image collection system 1 transmits imaging information to the same service server 510. The service server 510 may be composed of a plurality of server devices.

  When the image storage 410 receives the imaging device ID, the image ID, the image data, and the imaging date / time from the imaging device 210 (step S36), the image storage 410 stores the received various information in the image storage unit 412 (step S37). The image storage 410 stores the image data and the like in the image storage unit 412 each time it receives image data and the like from the photographing apparatus 210. In this way, the image storage 410 collects image data generated by the imaging device 210.

  In addition, when the service server 510 receives the shooting information from the shooting apparatus 210 (step S38), the service server 510 stores the received shooting information in the shooting information storage unit 513 (step S39). Note that, as described with reference to FIG. 6, in the photographing information storage unit 513, the photographing device ID, the image storage ID, and the photographing position are registered in advance by the operation terminal 310. Accordingly, when receiving the shooting information, the service server 510 stores the image ID and the shooting date / time included in the shooting information in the shooting information storage unit 513 corresponding to the shooting apparatus ID included in the shooting information. The service server 510 stores the shooting information in the shooting information storage unit 513 each time it receives shooting information from the shooting device 210. In this way, the service server 510 collects shooting information regarding image data.

  Next, image data transmission / reception processing among the user terminal 110, the image storage 410, the service server 510, and the image collection device 610 will be described with reference to FIG. FIG. 9 is a diagram illustrating image data transmission / reception processing by the image collection system 1 according to the first embodiment.

  As shown in FIG. 9, the user terminal 110 transmits a search request including the position information and date / time information designated by the user and the user ID of the user to the image collection device 610 (step S41). . For example, the user terminal 110 displays a list of the location date and location on a predetermined display unit, thereby causing the user to select the location date and location, and the selected location date and location image collecting apparatus. To 610. Specifically, the user terminal 110 stores the location date and location and the location in the user information storage unit 113 in step S23, and thus retains the user's action history. For this reason, when the user terminal 110 receives an operation to transmit a search request from the user, the user terminal 110 displays a list of the location date and location stored in the user information storage unit 113, and from this list The user can select the location date and time and the location.

  Note that the user terminal 110 may transmit a search request including position information and date / time information directly input to the user to the image collection device 610. In addition, the user terminal 110 allows the user to directly input the position information and the date / time information in a state where the location date / time and the list of the position are displayed on the display unit, and includes the input position information and date / time information. The request may be sent to the image collection device 610.

  Subsequently, when receiving a search request from the user terminal 110, the image collection device 610 transmits an acquisition request for acquiring an image ID to the service server 510 (step S42). Specifically, the image collection device 610 transmits an acquisition request including the user ID, position information, and date / time information included in the search request received from the user terminal 110 to the service server 510.

  Subsequently, when the service server 510 receives an acquisition request from the image collection device 610, the combination of the user ID, the position information, and the date / time information included in the acquisition request is stored in the user information storage unit 512. Authentication is performed by determining whether or not there is (step S43). The service server 510 determines that authentication is successful when various types of information included in the acquisition request are stored in the user information storage unit 512, and the various types of information included in the acquisition request are stored in the user information storage unit 512. If there is no authentication failure. Thereby, the service server 510 can determine whether or not the user is located at the position indicated by the position information on the date and time indicated by the date and time information, and as a result, the service server 510 is the transmission source of the acquisition request. The legitimacy of the user can be determined.

  When the location information and date / time information are directly input by the user, the location information and date / time information included in the acquisition request and the location location and date / time stored in the user information storage unit 512 are complete. It may be difficult to match. Therefore, the service server 510 may determine that the authentication is successful even if various types of information that completely matches the combination of the position information and the date / time information included in the acquisition request are not stored in the user information storage unit 512. Specifically, the service server 510 stores in the user information storage unit 512 behavior information including the location date and location that matches the user ID included in the acquisition request and approximates location information and date and time information. If it is, the authentication may be successful. For example, the service server 510 determines that the difference between the location information of the acquisition request and the location of the user information storage unit 512 is smaller than a predetermined threshold (for example, 5 [m]), and the date / time information and usage of the acquisition request. If the difference from the location date and time of the person information storage unit 512 is within a predetermined threshold range (for example, ± 5 minutes), the authentication may be successful.

  When the authentication is successful, the service server 510 obtains the image ID and the image storage ID corresponding to the shooting position and the shooting date / time corresponding to the position information and date / time information approximate to the position information and date / time information included in the acquisition request. Obtained from the imaging information storage unit 513 (step S44). Specifically, the service server 510 determines that the difference between the position information of the acquisition request and the shooting position of the shooting information storage unit 513 is smaller than a predetermined threshold, and the date / time information of the acquisition request and the shooting information of the shooting information storage unit 513. When the difference from the date and time is within a predetermined threshold range, the image ID and the image storage ID are acquired from the shooting information storage unit 513. In other words, the service server 510 obtains an image ID indicating image data that may be captured by the user.

  Subsequently, the service server 510 transmits permission information including the image ID acquired in step S44 and the user ID included in the acquisition request received from the image collection device 610 to the image storage 410 (step S45). Further, the service server 510 transmits the search result including the image ID and the image storage ID acquired in step S44 to the image collection device 610 (step S46).

  When receiving the permission information from the service server 510, the image storage 410 registers the user ID included in the permission information in the image storage unit 412 (step S47). Specifically, the image storage 410 stores the user ID included in the license information in the user ID of the image storage unit 412 corresponding to the image ID included in the license information.

  Further, when receiving the search result from the service server 510, the image collection device 610 transmits an image acquisition request including the image ID and the user ID included in the search result to the image storage 410 (step S48).

  When the image storage 410 receives an image acquisition request from the image collection device 610, the image storage 410 determines whether a combination of the image ID and the user ID included in the image acquisition request is stored in the image storage unit 412. When the combination of the image ID and the user ID is stored in the image storage unit 412, the image storage 410 acquires image data corresponding to the image ID from the image storage unit 412 and acquires the acquired image. Data is transmitted to the image collection device 610 (step S49).

  That is, when the image storage 410 receives an image acquisition request including a combination of an image ID and a user ID stored in the image storage unit 412, the image storage 410 permits image provision. As described above, when the license information is received from the service server 510, the image storage 410 registers the user ID in the image storage unit 412. Therefore, the service server 510 transmits the permission information including the user ID and the image ID to the image storage 410, thereby receiving the image acquisition request including the image acquisition request including the user ID and the image ID. 410 enables image data corresponding to the image ID to be provided.

[Configuration of each apparatus in Embodiment 1]
Next, the configuration of each device included in the image collection system 1 according to the first embodiment will be described with reference to FIG. FIG. 10 is a diagram illustrating a configuration example of each device in the first embodiment. As illustrated in FIG. 10, the image collection system 1 according to the first embodiment includes a user terminal 110, a photographing device 210, an image storage 410, a service server 510, and an image collection device 610.

  As illustrated in FIG. 10, the user terminal 110 includes a signal transmission / reception unit 111, a GPS unit 112, a user information storage unit 113, and a control unit 114.

  The signal transmission / reception unit 111 is a communication device that transmits / receives various information to / from an external device. For example, the signal transmission / reception unit 111 transmits behavior information to the service server 510 and transmits a search request to the image collection device 610.

  The GPS unit 112 detects the location of the user terminal 110. For example, the GPS unit 112 detects the longitude and latitude as the location of the user terminal 110 by receiving a signal transmitted from a GPS satellite. The GPS unit 112 is controlled by a position information acquisition unit 114a described later.

  The user information storage unit 113 stores the location where the user terminal 110 is located, the date and time when the user terminal 110 was located at the location, and the like. Note that the user information storage unit 113 is updated by a position information registration unit 114b described later.

  Here, FIG. 11 shows an example of the user information storage unit 113. In the example of FIG. 11, the user terminal 110 is located at the location “longitude X10 latitude Y10” at the location date “February 24, 2011, 11:32”. In the example of FIG. 11, the user terminal 110 is located at the location “longitude X20 latitude Y20” at the location date “February 24, 2011, 11:38”.

  In the example illustrated in FIG. 11, the user information storage unit 113 stores the location date and location. However, the user information storage unit 113 includes a user in addition to the location date and location. The ID may be stored.

  The control unit 114 performs overall control of various processes performed by the user terminal 110. In the example illustrated in FIG. 10, the control unit 114 includes a position information acquisition unit 114a, a position information registration unit 114b, and a request unit 114c.

  The position information acquisition unit 114 a acquires the location of the user terminal 110 by controlling the GPS unit 112. Specifically, the location information acquisition unit 114a monitors whether or not it is the timing for transmitting the behavior information to the service server 510, and when the transmission timing is reached, the location of the user terminal 110 in the GPS unit 112 is detected. To get.

  The location information registration unit 114b registers the location acquired by the location information acquisition unit 114a and the location date and time when the user terminal 110 is located at the location in the user information storage unit 113. In addition, the location information registration unit 114 b transmits the behavior information including the user ID indicating the user of the user terminal 110, the location, and the location date and time to the service server 510 via the signal transmission / reception unit 111.

  When receiving an operation for searching for an image from the user, the request unit 114c issues a search request including the position information and date / time information designated by the user and the user ID of the user to the image collection device. To 610.

  The imaging apparatus 210 illustrated in FIG. 10 is a surveillance camera or a live camera installed inside or outside a building, or a digital camera carried by someone other than the user of the user terminal 110. In the first embodiment, the imaging device 210 is a camera installed inside and outside a building.

  As illustrated in FIG. 10, the photographing apparatus 210 includes a signal transmission / reception unit 211, a photographing unit 212, an image storage unit 213, and a control unit 214.

  The signal transmission / reception unit 211 is a communication device that transmits / receives various information to / from an external device. For example, the signal transmission / reception unit 211 transmits image data or the like to the image storage 410 and transmits shooting information to the service server 510. The imaging unit 212 generates image data by performing imaging processing under the control of the control unit 214.

  The image storage unit 213 stores image data generated by the imaging unit 212, imaging information related to the image data, and the like. The image storage unit 213 is updated by the control unit 214 described later.

  Here, FIG. 12 shows an example of the image storage unit 213. In the example illustrated in FIG. 12, the image storage unit 213 includes items such as “imaging device ID”, “image ID”, “image data”, and “imaging date / time”. “Photographing device ID” is an identifier for identifying the photographing device 210. In the first embodiment, the photographing apparatus ID of the photographing apparatus is a reference numeral attached to the photographing apparatus illustrated in FIG. For example, the imaging device ID of the imaging device 210-1 illustrated in FIG. 3 is “210-1”. “Image ID” is an identifier for identifying image data. The “image data” is data generated by performing a photographing process by the photographing apparatus 210. The “shooting date / time” is the date / time when shooting was performed by the shooting device 210.

  In the example of FIG. 12, “Image data A” is generated when the imaging unit 212 performs imaging at “11:35 on February 24, 2011”, and the image ID of the image data A is “G10”. It is shown that. In addition, when the photographing unit 212 performs photographing at “11:40 on February 24, 2011”, “image data B” is generated, and the image ID of the image data B is “G11”. Show.

  The control unit 214 performs overall control of various processes performed by the photographing apparatus 210. Specifically, when the image capturing timing comes, the image capturing apparatus 210 performs image capturing processing by controlling the image capturing unit 212, and pays out an image ID to the image data generated by the image capturing unit 212. Then, the control unit 214 stores the imaging device ID, image ID, image data, and imaging date / time in the image storage unit 213. Further, the control unit 214 transmits the imaging device ID, the image ID, the image data, and the imaging date / time to the image storage 410, and transmits the imaging device ID, the image ID, and the imaging date / time to the service server 510.

  As illustrated in FIG. 10, the operation terminal 310 includes a signal transmission / reception unit 311, a display unit 312, a map information storage unit 313, and a control unit 314.

  The signal transmission / reception unit 311 is a communication device that transmits / receives various information to / from an external device. For example, the signal transmission / reception unit 311 transmits the position information to the service server 510. The display unit 312 is an output device that outputs various types of information, such as a liquid crystal display.

  The map information storage unit 313 stores map information, an imaging device ID, and an image storage ID. The map information is obtained by associating a map, position information of each position indicated on the map, and map image data generated by photographing the periphery at the position indicated on the map. The imaging device ID is information for identifying the imaging device 210, and the image storage ID is information for identifying the image storage 410.

  The map information storage unit 313 stores map information by being input in advance by an operator, for example. Further, the map information storage unit 313 stores the photographing ID and the image storage ID by being input by an operator when the photographing apparatus 210 is installed, for example. Note that the shooting ID and the image storage ID stored in the map information storage unit 313 may be deleted from the map information storage unit 313 after being transmitted to the service server 510 by the position information registration unit 314c described later.

  The control unit 314 totally controls various processes performed by the operation terminal 310. In the example illustrated in FIG. 10, the control unit 314 includes an image data reception unit 314a, a position information extraction unit 314b, and a position information registration unit 314c.

  The image data receiving unit 314a receives input of image data shot by the shooting device 210. Specifically, the image data accepting unit 314a accepts input of image data captured by the image capturing apparatus 210 by being input by an operator.

  The position information extraction unit 314b extracts position information registered in the service server 510 from the map information. Specifically, the position information extraction unit 314b compares the image data received by the image data reception unit 314a with the map image data stored in the map information storage unit 313 by image recognition, so that the map data on the map image data is displayed. Search for overlapping range of image data. Then, the position information extraction unit 314b extracts position information indicating a region on the map included in the searched overlapping range from the position information stored in the map information storage unit 313.

  The location information registration unit 314 c registers location information with the service server 510. Specifically, the position information registration unit 314c transmits the position information extracted by the position information extraction unit 314b together with the imaging device ID and the image storage ID stored in the map information storage unit 313 via the signal transmission / reception unit 311. It transmits to the service server 510.

  As illustrated in FIG. 10, the image storage 410 includes a signal transmission / reception unit 411, an image storage unit 412, and a control unit 413.

  The signal transmission / reception unit 411 is a communication device that transmits / receives various information to / from an external device. For example, the signal transmission / reception unit 411 receives image data and the like from the imaging device 210, receives permission information from the service server 510, and receives an image acquisition request from the image collection device 610. For example, the signal transmission / reception unit 411 transmits image data to the image collection device 610.

  The image storage unit 412 stores image data generated by the imaging apparatus 210, imaging information related to the image data, a user ID of a user who can acquire the image data, and the like. The image storage unit 412 is updated by a storage unit 413a described later.

  Here, FIG. 13 shows an example of the image storage unit 412. In the example illustrated in FIG. 13, the image storage unit 412 includes items such as “imaging device ID”, “image ID”, “image data”, “imaging date / time”, and “user ID”. “Shooting device ID”, “Image ID”, “Image data”, and “Shooting date / time” are the same as the various types of information shown in FIG. “User ID” indicates an identifier of a user who can acquire the corresponding image data. In the first embodiment, it is assumed that the user ID is a reference sign attached to the user terminal shown in FIG. For example, the user ID of the user terminal 110-1 shown in FIG. 3 is “110-1”.

  The example of FIG. 13 indicates that the user with the user ID “110-1” is permitted to acquire the image data A. Further, the example of FIG. 13 indicates that the user having the user ID “110-2” is permitted to acquire the image data C. On the other hand, in the example of FIG. 13, since the user ID corresponding to the image data B is not stored, it is indicated that no user is permitted to acquire the image data B.

  The control unit 413 performs overall control of various processes performed by the image storage 410. In the example illustrated in FIG. 10, the control unit 413 includes a storage unit 413a and a providing unit 413b.

  The storage unit 413 a stores the received various information in the image storage unit 412 when receiving various types of information such as image data from the photographing apparatus 210 or when receiving permission information from the service server 510.

  Specifically, the storage unit 413 a stores the received various information in the image storage unit 412 when the imaging device ID, the image ID, the image data, and the imaging date / time are received from the imaging device 210. That is, the storage unit 413a updates the imaging device ID, the image ID, the image data, and the imaging date and time of the image storage unit 412 when receiving image data or the like from the imaging device 210.

  In addition, when the storage unit 413a receives permission information including an image ID and a user ID from a transmission unit 514c of the service server 510 described later, the image storage unit 412 that matches the image ID included in the permission information. The user ID included in the permission information is stored in the image storage unit 412 in association with the image ID.

  When the providing unit 413b receives an image acquisition request including an image ID and a user ID from the image collection device 610, which will be described later, the combination of the image ID and the user ID included in the image acquisition request is stored in the image storage unit 413b. Whether it is stored in the unit 412 or not is determined. When the combination of the image ID and the user ID is stored in the image storage unit 412, the providing unit 413b acquires image data corresponding to the image ID from the image storage unit 412 and acquires the acquired image. Data is transmitted to the image collection device 610.

  As illustrated in FIG. 10, the service server 510 includes a signal transmission / reception unit 511, a user information storage unit 512, a shooting information storage unit 513, and a control unit 514.

  The signal transmission / reception unit 511 is a communication device that transmits / receives various information to / from an external device. For example, the signal transmission / reception unit 511 receives behavior information from the user terminal 110, receives shooting information from the shooting device 210, receives position information from the operation terminal 310, and issues an image ID acquisition request from the image collection device 610. Receive. Further, for example, the signal transmission / reception unit 511 transmits permission information to the image storage 410 and transmits a search result of the image ID to the image collection device 610.

  The user information storage unit 512 stores the behavior information transmitted by the position information registration unit 114b of the user terminal 110. Here, FIG. 14 shows an example of the user information storage unit 512. In the example illustrated in FIG. 14, the user information storage unit 512 includes items such as “user ID”, “location date”, and “location position”. These “user ID”, “location date” and “location” are behavior information transmitted by the user terminal 110 and are stored by the storage unit 514a described later.

  In the example of FIG. 14, the user terminal 110-1 with the user ID “110-1” is located at the position indicated by “latitude X10 longitude Y10” at “11:32 on February 24, 2011”. It is shown that. In the example of FIG. 14, the user terminal 110-2 with the user ID “110-2” is at the position indicated by “latitude X20 longitude Y20” at “11:38 on February 24, 2011”. It indicates that it was located.

  The shooting information storage unit 513 stores various types of information related to image data transmitted by the shooting device 210 and the operation terminal 310. Here, FIG. 15 shows an example of the photographing information storage unit 513. In the example illustrated in FIG. 15, the shooting information storage unit 513 includes items such as “shooting device ID”, “image storage ID”, “shooting position”, “image ID”, and “shooting date / time”.

  The “imaging device ID”, “image storage ID”, and “imaging position” are information transmitted by the operation terminal 310 and are stored by the storage unit 514a described later. The “image ID” and “shooting date / time” are information transmitted by the shooting apparatus 210 and are stored by the storage unit 514a described later. In the first embodiment, it is assumed that the image storage ID of the image storage is a reference numeral attached to the image storage shown in FIG. For example, the image storage ID of the image storage 410-1 illustrated in FIG.

  The control unit 514 totally controls various processes performed by the service server 510. In the example shown in FIG. 10, the control unit 514 includes a storage unit 514a, an authentication unit 514b, and a transmission unit 514c.

  The storage unit 514 a stores various received information in the user information storage unit 512 and the imaging information storage unit 513 when receiving various types of information from the user terminal 110, the operation terminal 310, and the imaging device 210. Specifically, the storage unit 514a stores the received behavior information in the user information storage unit 512 when the behavior information including the user ID, the location date and time, and the location is received from the user terminal 110. .

  The storage unit 514 a stores the received various information in the imaging information storage unit 513 when receiving the imaging device ID, the image storage ID, and the position information from the operation terminal 310. Further, when the storage unit 514a receives the imaging device ID, the image ID, and the imaging date / time from the imaging device 210, the storage unit 514a stores the received image ID and imaging date / time in the imaging information storage unit 513 corresponding to the received imaging device ID. And store.

  When the authentication unit 514b receives an acquisition request for acquiring an image ID from the image collection device 610 via the signal transmission / reception unit 511, the authentication unit 514b combines the user ID, the position information, and the date / time information included in the acquisition request. However, it authenticates by determining whether it is memorize | stored in the user information storage part 512. FIG. Note that the authentication unit 514b may make the authentication successful if the user information storage unit 512 stores action information including a location date and location that approximates a combination of location information and date information included in the acquisition request.

  When the authentication by the authentication unit 514b is successful, the transmission unit 514c transmits permission information to the image storage 410 and transmits a search result including an image ID and the like to the image collection device 610. Specifically, when authentication by the authentication unit 514b is successful, the transmission unit 514c corresponds to a shooting position and shooting date / time corresponding to position information and date / time information approximate to the position information and date / time information included in the acquisition request. The image ID and the image storage ID are acquired from the shooting information storage unit 513. Then, the transmission unit 514 c transmits permission information including the acquired image ID and the user ID included in the acquisition request to the image storage 410. In addition, the transmission unit 514 c transmits a search result including the image ID and the image storage ID acquired from the user information storage unit 512 to the image collection device 610.

  Processing performed by the transmission unit 514c will be described using the imaging information storage unit 513 illustrated in FIG. For example, it is assumed that the date and time information included in the acquisition request is substantially the same as the shooting date and time “February 24, 2011, 11:35” stored in the shooting information storage unit 513. For example, it is assumed that the difference between the date / time information included in the acquisition request and the shooting date / time “February 24, 2011, 11:35” is within a predetermined threshold range (for example, ± 5 minutes). At this time, the shooting position “latitude X1 longitude Y1, latitude X2 longitude Y2, latitude X3 longitude Y3, latitude X4 longitude Y4” stored in the shooting information storage unit 513 is referred to as “area XY14”. The position indicated by the position information included in the acquisition request (hereinafter referred to as “position Z”) is included. In such a case, the transmission unit 514c transmits the permission information including the image ID “G10” and the like to the image storage 410-1 having the image storage ID “410-1”, and the image ID “G10” and the image storage. The search result including the ID “410-1” is transmitted to the image collection device 610.

  In the above example, it is assumed that the position Z is not included in the region XY14. At this time, when the linear distance between the outer periphery of the region XY14 and the position Z is smaller than a predetermined threshold (for example, 5 [m]), the transmission unit 514c performs transmission processing such as an image ID.

  In the example illustrated in FIG. 15, the position information of four points indicating the area is stored in the shooting position of the shooting information storage unit 513, but the position of one point is set as the shooting position of the shooting information storage unit 513. Only the position information shown may be stored. In such a case, for example, the transmission unit 514c has a position within a circular area having a predetermined radius (for example, 5 [m]) centered on the position information of one point stored in the imaging information storage unit 513. Z is included, or when such a circular region and the position Z are located in the vicinity (for example, the linear distance between the circumference of the circular region and the position Z is greater than a predetermined threshold (for example, 1 [m]) If it is small, transmission processing such as an image ID may be performed.

  As described above, the service server 510 according to the first embodiment uses the position of the photographing target photographed by the photographing apparatus 210 instead of the position where the photographing apparatus 210 is installed as position information used for comparison with the user's location. Use. For example, when the photographing device 210 is a surveillance camera or the like installed on the roof of a building, the position where the photographing device 210 is installed is the building itself, and the position of the subject to be photographed by the photographing device 210 is, for example, a building There are roads and parks in front of. It is assumed that the user walks in the park in front of the building and is photographed by the photographing device 210 installed on the roof of the building. Then, if the date and time information approximates, there is a possibility that the user is reflected in the image data generated by the photographing apparatus 210, but the location of the user (park) and the position where the photographing apparatus 210 is installed Even if (building) is compared, this image data is not always retrieved as image data showing the user. On the other hand, if the user's location (park) and the position of the object to be photographed (the road or park in front of the building) photographed by the photographing device 210 are compared, this image is shown as image data showing the user. The likelihood that the data will be retrieved increases.

  As illustrated in FIG. 10, the image collection device 610 includes a signal transmission / reception unit 611, a display unit 612, a user information storage unit 613, an image storage unit 614, and a control unit 615.

  The signal transmission / reception unit 611 is a communication device that transmits / receives various information to / from an external device. For example, the signal transmission / reception unit 611 receives a search request from the user terminal 110. For example, the signal transmission / reception unit 611 transmits an image ID acquisition request to the service server 510. The display unit 612 is an output device that outputs various types of information, such as a liquid crystal display.

  The user information storage unit 613 stores a user ID, date / time information, position information, and the like included in the search request received from the request unit 114c of the user terminal 110. The image storage unit 614 stores image data acquired from the image storage 410 by the control unit 615, which will be described later, and shooting information related to the image data.

  The control unit 615 performs overall control of various processes performed by the image collection device 610. In the example shown in FIG. 10, the control unit 615 includes a request unit 615a and a storage unit 615b.

  When the request unit 615 a receives a search request from the user terminal 110, the request unit 615 a acquires an image ID from the service server 510 and acquires the image data from the image storage 410 by transmitting the acquired image ID to the image storage 410. To do.

  Specifically, when the request unit 615a receives a search request from the user terminal 110, the request unit 615a transmits an acquisition request including the user ID, date information, and position information included in the search request to the service server 510. When the request unit 615a receives a search result including the image ID and the image storage ID from the service server 510 in response to the acquisition request, the request unit 615a searches for an image acquisition request including the image ID and the user ID. It transmits to the image storage 410 corresponding to the image storage ID included in the result. Accordingly, the request unit 615a acquires image data from the image storage 410.

  The storage unit 615b stores the image data acquired by the request unit 615a in the image storage unit 614. At this time, the request unit 615a may also store shooting information related to image data in the image storage unit 614. Note that the control unit 615 may display-control the image data acquired by the request unit 615a on the display unit 612.

[Effect of Example 1]
As described above, in the image collection system 1 according to the first embodiment, the operation terminal 310 includes the map information storage unit 313, the image data reception unit 314a, the position information extraction unit 314b, and the position information registration unit 314c. . The map information storage unit 313 stores a map, position information of each position indicated on the map, and map image data generated by photographing the periphery at the position indicated on the map in association with each other. In addition, the image data receiving unit 314a receives input of image data generated by the imaging device 210 installed inside and outside the building. Further, the position information extraction unit 314b compares the image data received by the image data reception unit 314a with the map image data stored in the map information storage unit 313 by image recognition, so that image data on the map image data is displayed. The position information indicating the region on the map included in the searched overlap range is extracted from the position information stored in the map information storage unit 313. The position information registering unit 314c uses the position information extracting unit 314b to search for the image data generated by being photographed by the photographing device 210 using the photographing position indicating the photographing target position. By transmitting the extracted position information, the position information is registered as a shooting position in the service server 510 in association with the image data generated by the shooting apparatus 210.

  As described above, the operation terminal 310 according to the first embodiment uses the image data captured by the imaging apparatus 210 to identify the position of the imaging target imaged by the imaging apparatus 210 and registers this in the service server 510. As a result, the service server 510 can use the position of the photographing target photographed by the photographing apparatus 210 as the position information used for comparison with the location of the user. For this reason, in the service server 510, there is a high possibility that the image data showing the user is retrieved more accurately. The image collection system 1 according to the first embodiment uses the image data including the user as the user. Many can be provided.

  In addition, the position information extraction unit 314b of the operation terminal 310 according to the first embodiment narrows down the range of the map image data used for the comparison using the position information indicating the position of the photographing apparatus 210 itself, and the narrowed comparison range. Search for overlapping ranges. Thereby, the operation terminal 310 can extract position information more efficiently.

  In addition, the position information extraction unit 314b of the operation terminal 310 according to the first embodiment identifies a characteristic structure included in the overlapping range, and sets a region in a predetermined range centered on the identified structure as a region on the map. decide. Thereby, the operation terminal 310 can extract position information more appropriately.

  Further, the position information extraction unit 314b of the operation terminal 310 according to the first embodiment determines a rectangular area centered on the structure or a circle area centered on the structure as an area on the map. Thereby, the operation terminal 310 can extract position information more easily.

  By the way, the image collection system 1 in the first embodiment may be implemented in various different forms other than the above-described embodiments. Therefore, in the second embodiment, another embodiment of the image collection system 1 will be described.

  In the first embodiment, it is assumed that the photographing apparatus 210 generates a still image as image data, but the embodiment is not limited to this. The imaging device 210 may generate a moving image as image data. For example, it is assumed that the image data is a moving image shot within a certain period. In this case, the shooting information of the image data includes, for example, one image ID paid out in association with the entire moving image, one image data, and the start date and time and end date and time of the shooting period. Therefore, for example, the service server 510 compares the user's location date and time with the start date and time and end date and time of the shooting period, and determines whether the user's location date and time is included in the start date and time. By doing so, it is determined whether or not there is a possibility that the user is reflected. If it is not desirable to provide the entire video to the user, for example, the image storage 410 further receives the user's location date and time from the service server 510 and includes an image of a predetermined period including the user's location date and time. The extracted image data may be transmitted to the user terminal 110 after the data is extracted by editing.

  In the first embodiment, it is assumed that the lens of the photographing apparatus 210 is fixed and there is one photographing position, but the embodiment is not limited to this. The lens of the imaging device 210 may be movable. That is, the imaging device 210 may image a plurality of imaging positions as imaging targets. In this case, the photographing position of the photographing apparatus 210 is a plurality of photographing positions. For this reason, for example, the photographing apparatus 210 may include information for identifying in which photographing position the image data was photographed in the photographing information of the image data. On the other hand, the service server 510 may store shooting information of image data for each shooting position.

  Moreover, in the said Example 1, although the camera installed in the building inside and outside was assumed as the imaging device 210, embodiment is not restricted to this. The imaging device 210 may be a digital camera or the like carried by someone other than the user of the user terminal 110. For example, it is assumed that the photographing apparatus 210 is a mobile phone with a digital camera function that is carried by an individual who is another person, and the function of the operation terminal 310 is incorporated. In this case, the mobile phone transmits the image data generated by performing the shooting process and the shooting information of the image data to the image storage 410 and the service server 510, and specifies the shooting position by the function of the operation terminal 310. The imaging position is transmitted to the service server 510.

  Further, the photographing apparatus 210 does not necessarily have to include the operation terminal 310. For example, it is assumed that the photographing apparatus 210 is a digital camera and the operation terminal 310 is a PC. In this case, the digital camera performs image capturing processing to generate image data and image data capturing information. On the other hand, the operation terminal 310 receives input of image data generated by a digital camera and photographing information of image data by an operation of an individual who is another person. Then, the operation terminal 310 transmits the image data and the shooting information of the image data to the image storage 410 and the service server 510, specifies the shooting position using the image data, and transmits the specified shooting position to the service server 510. .

[Image collection system configuration]
In addition, the image collection system 1 illustrated in FIG. 1 may be configured without the train 10, the user terminals 120, 130, and 140, and the imaging devices 220, 230, and 240. That is, the image collection system 1 may be configured by the user terminal 110, the imaging device 210, the operation terminal 310, the image storage 410, the service server 510, and the image collection device 610. Further, the image collection system 1 may be configured without including the operation terminal 310. When the operation terminal 310 is not included, the same function as that of the operation terminal 310 is installed in the service server 510, and the service server 510 sets the shooting position, the image storage ID, and the shooting device ID of the shooting information storage unit 513. The information may be stored, or the information may be updated manually by a system administrator or the like.

[Image data acquisition terminal]
In the first embodiment, the image collection device 610 receives a search request from the user terminal 110 and acquires image data from the image storage 410. However, the user collection device 610 includes the image collection device 610. You may have the function to have. Specifically, the user terminal 110 may transmit an image ID acquisition request to the service server 510 and acquire image data from the image storage 410 using the image ID acquired from the service server 510.

[Device configuration]
In addition, among the processes described in the above embodiment, all or a part of the processes described as being automatically performed can be manually performed, or the processes described as being performed manually can be performed. All or a part can be automatically performed by a known method. In addition, the processing procedures, specific names, and information including various data and parameters shown in the document and drawings can be arbitrarily changed unless otherwise specified. For example, the various types of information illustrated in FIGS. 11 to 15 are merely examples, and can be changed to arbitrary information.

  Further, each component of each illustrated apparatus is functionally conceptual, and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each device is not limited to that shown in the figure, and all or a part thereof may be functionally or physically distributed or arbitrarily distributed in arbitrary units according to various loads or usage conditions. Can be integrated and configured.

  For example, the storage unit 514a illustrated in FIG. 10 stores a user information storage unit that stores behavior information received from the user terminal 110 in the user information storage unit 512 and a shooting information received from the shooting device 210. It may be distributed to the photographing information storage unit stored in the unit 513.

  Further, for example, the user information storage unit 512 and the imaging information storage unit 513 illustrated in FIG. 10 may be stored in a predetermined storage device connected to the service server 510 without the service server 510.

  Further, for example, the image storage 410 and the service server 510 illustrated in FIG. 1 may be integrated. Specifically, when the service server 510 holds a large-capacity storage device, the service server 510 receives image data in addition to shooting information such as an image ID from each shooting device, and the image data May also be aggregated. If an apparatus in which such an image storage 410 and service server 510 are integrated is an image providing apparatus, the image providing apparatus includes a user information storage unit that stores behavior information, image data, a shooting position, and a shooting date and time. A combination of the user identifier, the location, and the location date and time when an image acquisition request including the user identifier, the location, and the location date is received from the image collection device 610 or the like. Authentication is performed by determining whether or not action information that approximates is stored in the user information storage unit. Then, when the authentication is successful, the image providing apparatus acquires the image data stored in the image storage unit in association with the shooting position and the shooting date and time approximate to the location and date and time included in the image acquisition request. The image is transmitted to the image collection device 610 or the like that is the transmission source of the request. Accordingly, the image collection device 610 and the like can acquire image data simply by transmitting an acquisition request including the user ID, position information, and date / time information to the service server 510.

[program]
It is also possible to create a registration program in which processing executed by the operation terminal 310 according to the first embodiment is described in a language that can be executed by a computer. In this case, when the computer executes the registration program, the same effect as in the first embodiment can be obtained. Furthermore, the same processing as in the first embodiment may be realized by recording the registration program on a computer-readable recording medium, and reading and executing the registration program recorded on the recording medium. . Hereinafter, an example of a computer that executes a registration program that realizes the same function as that of the operation terminal 310 illustrated in FIG. 10 will be described.

  FIG. 16 is a diagram illustrating a computer 1000 that executes a registration program. As illustrated in FIG. 16, the computer 1000 includes, for example, a memory 1010, a CPU 1020, a hard disk drive interface 1030, a disk drive interface 1040, a serial port interface 1050, a video adapter 1060, and a network interface 1070. These units are connected by a bus 1080.

  The memory 1010 includes a ROM (Read Only Memory) 1011 and a RAM (Random Access Memory) 1012 as illustrated in FIG. The ROM 1011 stores a boot program such as BIOS (Basic Input Output System). The hard disk drive interface 1030 is connected to the hard disk drive 1031 as illustrated in FIG. The disk drive interface 1040 is connected to the disk drive 1041 as illustrated in FIG. For example, a removable storage medium such as a magnetic disk or an optical disk is inserted into the disk drive. The serial port interface 1050 is connected to a mouse 1051 and a keyboard 1052, for example, as illustrated in FIG. The video adapter 1060 is connected to a display 1061, for example, as illustrated in FIG.

  Here, as illustrated in FIG. 16, the hard disk drive 1031 stores, for example, an OS 1091, an application program 1092, a program module 1093, and program data 1094. In other words, the registration program is stored in, for example, the hard disk drive 1031 as a program module in which a command to be executed by the computer 1000 is described. For example, a reception procedure for executing information processing similar to that of the image data reception unit 314a illustrated in FIG. 10, an extraction procedure for executing information processing similar to that of the position information extraction unit 314b, and information similar to that of the position information registration unit 314c. A program module 1093 describing a registration procedure for executing processing is stored in the hard disk drive 1031.

  Various data held by the operation terminal 310 described in the above embodiment is stored as program data in, for example, the memory 1010 or the hard disk drive 1031. Then, the CPU 1020 reads the program module 1093 and program data 1094 stored in the memory 1010 and the hard disk drive 1031 to the RAM 1012 as necessary, and executes the reception procedure, extraction procedure, and registration procedure.

  Note that the program module 1093 and program data 1094 related to the registration program are not limited to being stored in the hard disk drive 1031, but may be stored in, for example, a removable storage medium and read out by the CPU 1020 via the disk drive or the like. Good. Alternatively, the program module 1093 and the program data 1094 related to the registration program are stored in another computer connected via a network (LAN (Local Area Network), WAN (Wide Area Network), etc.), and via the network interface 1070. May be read by the CPU 1020.

DESCRIPTION OF SYMBOLS 1 Image collection system 20 Information communication network 110 User terminal 210 Imaging device 310 Operation terminal 410 Image storage 411 Signal transmission / reception part 412 Image storage part 413 Control part 413a Storage part 413b Provision part 510 Service server 511 Signal transmission / reception part 512 User information storage Unit 513 photographing information storage unit 514 control unit 514a storage unit 514b authentication unit 514c transmission unit 610 image collecting apparatus

Claims (3)

A registration device that is communicably connected to a service server that searches for image data,
A storage unit that stores a map, position information of each position indicated on the map, and map image data generated by photographing the periphery at the position indicated on the map in association with each other;
A receiving unit that receives an input of image data thus generated to KageSo location shooting that has been installed in the building inside and outside,
When comparing the image data received by the receiving unit and the map image data stored in the storage unit by image recognition , the position information of a characteristic structure existing in the vicinity of the installation location of the imaging device is used. Then, a certain range centered on the position indicated by the position information is narrowed down as the range of the map image data used for comparison with the image data, and the image data on the map image data in the narrowed range is narrowed down. An extraction unit that searches for an overlapping range and extracts position information indicating an area on the map included in the searched overlapping range from position information stored in the storage unit;
Sending the position information extracted by the extraction unit to the service server that searches for image data generated by being photographed by the photographing device using a photographing position indicating the position of the photographing target. A registration unit that registers the position information as the shooting position in the service server in association with the image data generated by the shooting device ;
The extraction unit identifies a characteristic structure included in the overlapping range, and a rectangular area centered on the identified structure or a circle area centered on the structure on the map. A registration apparatus characterized in that it is determined as an area, and the determined area is used as position information indicating a position of an imaging target to be imaged by the imaging apparatus. A registration method executed by a registration device communicably connected to a service server that searches for image data,
The registration device
A storage unit that associates and stores a map, position information of each position indicated on the map, and map image data generated by photographing the periphery at the position indicated on the map;
The registration method is:
An accepting step for accepting input of image data thus generated to KageSo location shooting installed in a building and out,
When comparing the image data received by the receiving step and the map image data stored in the storage unit by image recognition , the position information of the characteristic structure existing near the installation location of the imaging device is used. Then, a certain range centered on the position indicated by the position information is narrowed down as the range of the map image data used for comparison with the image data, and the image data on the map image data in the narrowed range is narrowed down. An extraction step of searching for an overlapping range and extracting position information indicating an area on the map included in the searched overlapping range from position information stored in the storage unit;
Sending the position information extracted by the extraction step to the service server that searches for image data generated by being photographed by the photographing device using a photographing position indicating the position of the photographing target. in, the positional information as the photographing position, seen including a registration step of registering to the service server in association with the image data generated by the imaging device,
The extraction step specifies a characteristic structure included in the overlapping range, and a rectangular area centered on the specified structure or a circle area centered on the structure is indicated on the map. A registration method characterized in that it is determined as an area, and the determined area is used as position information indicating a position of an imaging target to be imaged by the imaging apparatus . A registration device that is communicably connected to a service server that searches for image data.
A storage unit that associates and stores a map, position information of each position indicated on the map, and map image data generated by photographing the periphery at the position indicated on the map;
The registration program
And the acceptance procedure that accepts an input of image data thus generated to KageSo location shooting that has been installed in the building inside and outside,
When comparing the image data received by the reception procedure and the map image data stored in the storage unit by image recognition , the position information of the characteristic structure existing in the vicinity of the installation location of the imaging device is used. Then, a certain range centered on the position indicated by the position information is narrowed down as the range of the map image data used for comparison with the image data, and the image data on the map image data in the narrowed range is narrowed down. An extraction procedure for searching for an overlapping range and extracting position information indicating an area on the map included in the searched overlapping range from the position information stored in the storage unit;
Sending the position information extracted by the extraction procedure to the service server that searches for image data generated by being photographed by the photographing device using a photographing position indicating the position of the photographing target. Then, the registration apparatus executes the registration procedure for registering the position information as the shooting position in the service server in association with the image data generated by the shooting apparatus ,
The extraction procedure specifies a characteristic structure included in the overlapping range, and a rectangular area centered on the specified structure or a circle area centered on the structure is displayed on the map. It is determined as an area, and the determined area is used as position information indicating the position of an imaging target to be imaged by the imaging apparatus.
A registration program characterized by that .

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